US20090181607A1

US20090181607A1 - Drywall corner sanding tool

Info

Publication number: US20090181607A1
Application number: US12/008,443
Authority: US
Inventors: Charles T. Ray, JR.
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-01-11
Filing date: 2008-01-11
Publication date: 2009-07-16
Also published as: US7740524B2

Abstract

A sanding tool for sanding sheetrock corner joints is provided. The tool has an elongated mounting plate with a swivel handle attached to one side, and to the other side is attached one or more circular sanding disk holders to which disks of sanding medium are removably attached to a flat face of the sanding disk holder. The sanding disk holders are rotatably mounted on short axles attached to the mounting plate, and are each configured having a relatively wide edge that frictionally engages a wall adjacent the wall being sanded. This causes the sanding disk holder to rotate, sanding the sheetrock joint with a rotary motion instead of a linear motion.

Description

FIELD OF THE INVENTION

This invention relates generally to drywall sanding tools, and particularly to a drywall sanding tool for sanding adjacent sides of corners.

BACKGROUND OF THE INVENTION

Installing drywall involves nailing or screwing sheets or panels of drywall, which is typically manufactured as either 4′ by 8′ or 5′ by 12′ sheets, adjacent to one another to studs along a wall. The factory edges of such drywall panels are bevelled, typically for about 2-3 inches or so along the edge, so that sheetrock “mud” may be spread by a trowel into the beveled regions between two mounted panels, and sheetrock tape pressed into the mud so as to contiguously join the two panels. Such a joint may be 4″ to 6″ or so in width. A second coat of mud is then troweled over the tape, and after the mud dries, the mud-covered interface between the two panels is sanded smooth and flush so that there is no discernable break between the two panels. Where two panels meet at a corner of a room, or where a ceiling sheetrock panel meets a wall panel, a 90 degree corner joint is formed. Here, sheetrock tape is typically scored or otherwise creased longitudinally down the middle thereof so that it may be easily longitudinally bent 90 degrees and pressed into sheetrock mud forming a corner. As with other sheetrock joints, the mud of the corner joints must be sanded after it dries in order to present a smooth, aesthetically pleasing appearance of the corners. As noted, the beveled region of sheetrock filled with sheetrock mud may extend 2″-3″ or so outward from the corner.
While sanding sheetrock mud of planar wall joints of sheetrock is relatively easy, sanding sheetrock mud in corners is relatively difficult. Dried sheetrock mud is relatively soft and easy to damage, which requires additional mud to be troweled into the damaged areas, and a wait time of typically 24 hours for the repair mud to dry. Such damage typically occurs when an edge of sandpaper, a sandpaper holder or sandpaper sponge contacts the adjacent mud joint of a corner while the sandpaper, sandpaper tool or sponge is being rubbed on the opposite mud joint corner, developing a groove or gouge in the wall of the corner not being sanded.
In order to address this problem, one potential solution is advanced by U.S. Pat. No. 6,325,708, to Miles, which teaches a V-shape plate that holds or supports sanding pads or sheets thereon. The V-shaped plates holding the sandpaper elements have sides disposed at 90 degrees to each other. One problem with this arrangement is that the angle of the two flat plates seldom accurately matches the angle of sheetrock corners, which are rarely accurately configured exactly 90 degrees to each other. Here, where one side of a corner is correctly sanded, the other side will be either excessively sanded or insufficiently sanded. As such, the device of Miles inadequately addresses the problem of sanding sheetrock corners.
Another proposed solution is sheetrock sanding sponge configured generally in square or rectangular blocks wherein edges thereof are beveled or tapered slightly so that a sheetrock technician may carefully sand by hand one side of the corner, and then sand by hand the other side of the corner. However, this is a laborious, tedious and time-consuming process, and is subject to damaging the sheetrock mud of a corner portion of a wall adjacent the wall joint being sanded. In addition, such a hand sanding process is very abrasive to skin of a sheetrock technician; it not being uncommon for hands of such an individual to be blistered and bleeding at the end of a day's work. Also, as noted, dried sheetrock mud is so soft that even a single sanding stroke where the edge of the sanding medium contacts the adjacent wall may cause a groove or gouge in the mud of the adjacent wall, which then requires repair. Also, sandpaper holders of the prior art may be bumped against the adjacent wall, creating a gouge in the sheetrock mud that requires repair.
In view of the foregoing, it is apparent that a need exists for a sheetrock sanding tool for sanding sheetrock mud in corners that is easy to use, that will not damage adjacent walls and is fast and efficient in its operation.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a view of my new corner sanding tool as seen from a bottom side view thereof.

FIG. 1 a is a partial view showing one possible wheel or disk configuration of the present invention.

FIG. 1 b is another partial view of another possible wheel or disk configuration of the present invention.

FIG. 2 is a view of my new corner sanding tool as seen from a top side view thereof.

FIG. 3 is a view of my new corner sanding tool as it is used to sand drywall mud in a corner.

DETAILED DESCRIPTION OF THE DRAWINGS

As seen in FIG. 1, my new corner sanding tool 10 is constructed having a swivel handle 12, as will be shown and described in the following, handle 12 being connected to a mounting plate 14, plate 14 also denoted as a support means. Plate 14 supports at least one, and preferably two, circular, relatively thick sanding wheels or sanding disk holders 16, also denoted as sanding disk holder means, that may be on the order of anywhere from about 0.25″ to 1″ or more thick, about 4″ to 5″ in diameter and each having a flat outer face surface 18 configured to removably hold sanding disks 20 (shown partially broken away). While a relatively thick sanding disk holder is shown, it should be apparent that all that is required to implement my invention with respect to the sanding disk holders is to provide a flat outer face and relatively thick edges. As shown in FIG. 2 for the upper sanding disk holder, center regions of the disk holders may be hollow, with a thickened central region for supporting an axle about which the holder rotates, or the interior of my disk holders may be of a radial ribbed construction, as shown by ribs R (FIG. 2), to provide strength. As shown by the cut-away portion of a sanding disk holder in FIG. 1, the holders may also be of a solid construction. Disks 20 may be of any suitable sanding medium, such as sandpaper or a sponge-backed sandpaper, and may extend over a central opening 21 in disk holder 16, or be provided with an opening corresponding to opening 21. As shown in FIG. 1 a, disk holders 16 may have a square edge 17 so that a sanding disk 20 extends directly up to edge 17 in order to sand the sheetrock mud all the way into the corner, or as shown in FIG. 1 b edges of holders 16 may be provided with a small bevel 17 on the order of perhaps 1/16 of an inch or so and at a 30 degree or 45 degree angle, so that sanding disks 20 do not quite extend to the edge of holders 16. This is advantageous in that where a sandpaper disk is not perfectly centered on the flat face of the holder, the edge of the sandpaper disk will not groove or gouge the adjacent wall. Of course, where the corner of the holder is 90 degrees, as shown in FIG. 1 a, care must be taken to closely center the sandpaper disk thereon. Surfaces 18 may have mounted thereto one portion of hook-and-loop tape, for receiving sanding disks 20 backed with the other portion of hook-and-loop tape, or be configured smooth so as to accept sanding disks backed by a removable adhesive such that the sanding disk may be attached and removed from the sanding disk holders 16. Advantageously, a single attachment member, such as a bolt 22, also designated as a rotational support means, is attached to plate 14 and rotatably supports wheels 16 so that they may freely turn while sanding a corner, as will be further explained. Bolts 22 may be shoulder bolts provided with a shoulder 23 that abuts flush against plate 14, with an upwardly extending, smooth portion 25 serving as an axle shaft for rotatably supporting holders 16. A spacer 29 (FIG. 1), which may be a washer, may be positioned about the axle shaft 25 so as to space sanding disk holders 16 away from mounting plate 14, as shown in FIGS. 1 a and 1 b. Alternately, a central portion of the sanding disk holder that is supported by the axle may be made slightly longer than the width of the holder in order to space the holder away from mounting plate 14.
The heads of bolts 22 are recessed within opening 21, and loosely bear against a floor 19 of opening 21. A thrust washer (not shown) may be disposed between the inner side of the head of bolt 22 and floor 19 so as to distribute loads during rotation of holder 16. Here, each opening 27 in holders 16 may be configured as a bushing, such as a bushing of metal or high density plastic. In other embodiments, opening 27 may simply be constructed of the same material as sanding disk holder 16. In other embodiments, a large rivet may be used to permanently attach sheetrock disk holder 16 to plate 14, with a head thereof recessed as shown in FIG. 1. Thus, sanding wheels or sanding disk holders 16 are each particularly mounted for rotation in load-bearing relation on mounting plate 14. While two sanding disk holders are shown, it is apparent that only one sanding disk holder 16 need be mounted to a plate 14 to implement the instant invention. Likewise, more sanding disk holders, such as three or more, may also be mounted to a single plate 14.
Referring now to FIG. 2, an opposite side of plate 14 is shown. In this view, it is seen that bolts 22 extend through plate 14, and are rigidly mounted as by nuts 23 against the back side of plate 14. Alternately, plate 14 may be provided with threads (not shown) for accepting bolts 22 in a tightened and secured relation and where needed, washers (not shown) may additionally be used on the opposite side of plate 14 for locking bolts 22 in tightened and secured relation on plate 14. Self-locking nuts may also be used in conjunction with a shoulder bolt. Handle 12 is attached by a swivel connection including a rotatably supported axle shaft 30 supported on each side of plate 14 by lugs or bosses 32, with handle 12 rotatably supported on a lug 34 at a pivot point 36. With this construction, plate 14 and wheels or disks 16 may be maintained in a flat relation against one wall of a corner joint as a sheetrock technician moves the apparatus up and down along a vertical corner joint, or back and forth for a ceiling joint, by swivel handle 12.
FIG. 3 illustrates operation of my new sheetrock corner sander. Here, all that is required is for a sheetrock technician to hold handle 12 and move the sanding surfaces of the sanding medium against one wall 40 of a mudded sheetrock corner joint. Unobviously, edges 39 of wheels or holders 16 are constructed for and intended to bear against the adjacent wall 42, causing holders 16 to rotate (shown by arrows) and impart a rotary sanding action against wall 40 that is more efficient and removes excess sheetrock mud faster than simply scrubbing sandpaper along wall 40. In fact, it has been demonstrated that my new sanding tool cuts sanding time of corners by more than half over the corner sanding devices of the prior art because of the rotary motion of holders 16. Further, damage to the adjacent wall 42 is eliminated due to width of edges of holders 16, which distribute the rolling load over an area sufficiently wide so as to prevent damage to the adjacent wall. In addition, it has been found that sheetrock joints greater than 90 degrees and up to about 120 degrees or so may be efficiently sanded using my new sheetrock sanding tool. Here, a small peripheral portion of an edge 39 of holder 16 that contacts the adjacent wall has sufficient frictional capability to rotate holders 16. In other embodiments, interchangable sanding medium holders may be constructed with beveled edges to accommodate sheetrock joints other than 90 degrees, with 120 degree joints perhaps being the most common non-90 degree joint.
For facilitating rotary motion of holder 16, it is important that edges 39 of wheels or holders 16 be of a frictional character sufficient to frictionally engage wall 42 in order to overcome the friction developed by sanding the adjacent wall. Accordingly, a thin strip of frictional material 46 (partially shown in FIG. 2), such as rubber or other frictional material, may be positioned around or bonded to edges 39 of holders 16. In other embodiments, such frictional material may be molded into edges 39 of holders 16, and particularly peripherally along a region of the holder edge that would contact the aforementioned 120 degree sheetrock joint. With this construction, the tool may be rapidly rubbed up and down (or across) a corner joint with the sanding faces bearing against a wall 40 and edges 39 bearing against an adjacent wall 42. This generates rapid rotation of disk holders 16 analogous to rotation of a power tool, causing wall 40 to be sanded with just a few strokes. The tool is then turned so that the sanding faces bear against wall 42, with frictional edges 39 bearing against sanded wall 40. The tool is again moved up and down the length of the corner a few times, sanding the corner of wall 42.
It should be obvious to those skilled in the arts that many variations of my new sheetrock sanding tool may be implemented. As noted, the sanding disk holders 16 may be made somewhat wider or thinner, and the holders themselves may be of larger or smaller diameter. Importantly, the width of the edges of the holders should be sufficiently wide so as to not damage sheetrock mud of the adjacent wall and of a sufficiently frictional character so as to cause rotation of the holder against the sanding friction of the wall the sanded. In addition, while two holders 16 are shown attached to a plate 14, one or more holders, such as three or four, may be mounted to a single plate.

Claims

1. A sheetrock sanding tool for sanding sheetrock mud of sheetrock corner joints, said sheetrock sanding tool comprising:

a mounting plate,

at least one circular sanding disc holder rotatably mounted to one side of said mounting plate, said sanding disk holder having a flat face and a relatively thick edge,

a sanding disk removably attachable to a face of said sanding disk holder,

said relatively thick edge of said circular sanding disk holder configured for engagement with a wall adjacent to a wall being sanded, for causing rotation of said circular sanding disk holder as it is moved along said sheetrock corner joint, developing a rotary sanding motion against said wall being sanded,

a handle mounted for swiveling operation attached to an opposite side of said plate.

2. A sheetrock sanding tool for sanding sheetrock mud of sheetrock corner joints as set forth in claim 1 wherein said relatively thick edge is of a frictional character.

3. A sheetrock sanding tool as set forth in claim 1 wherein said sanding disk is removably attached to said flat face of said circular sanding disk holder by adhesive.

4. A sheetrock sanding tool as set forth in claim 1 wherein said sanding disk is removably attached to said flat face of said circular sanding disk holder by hook-and-loop tape.

5. A sheetrock sanding tool as set forth in claim 1 wherein an outside corner of each said circular, relatively thick sanding disk holder is a 90 degree corner so that said sanding disk extends to an edge of said sanding disk holder.

6. A sheetrock sanding tool as set forth in claim 1 wherein an outside corner of each said circular sanding disk holder is provided with a small beveled region so that said sanding disk does not extend to said edge of said sanding disk holder.

7. A sheetrock sanding tool as set forth in claim 1 wherein said mounting plate is an elongated mounting plate with at least two circular sanding disk holders mounted to said elongated plate.

8. A sheetrock sanding tool as set forth in claim 1 wherein an edge of said at least one sanding disk holder is from about ¼ inch to about 1 inch in thickness so that a relatively wide portion of said wall adjacent said wall being sanded is engagable by said edge.

9. A sheetrock sanding tool as set forth in claim 1 wherein said at least one relatively thick, sanding disk holder is from between about 3 inches to about 5 inches in diameter.

10. A sheetrock sanding tool for sanding sheetrock corners, said sheetrock sanding tool comprising:

a mounting plate,

rotational support means connected to one side of said mounting plate,

at least one sheetrock sanding disk support means rotationally engaging said rotational support means, for removably holding a disk of sheetrock sanding medium,

an edge of said at least one relatively wide sheetrock sanding disk support means configured for frictionally engaging a wall adjacent a wall being sanded, facilitating rotational engagement of said sheetrock sanding disk support means as said sanding disk support means is moved along a sheetrock joint,

a handle mounted for swiveling operation attached to an opposite side of said mounting plate, for moving said sanding tool along a sheetrock joint.

11. A sheetrock sanding tool as set forth in claim 10 wherein said sheetrock sanding disk support means further comprises:

a circular holder having a flat face against which a sanding disk is removably affixed,

an edge of relatively wide character peripherally around said flat face for frictionally engaging a wall of a sheetrock joint adjacent a wall being sanded.

12. A sheetrock sanding tool as set forth in claim 11 wherein said edge of relatively wide character is configured including a frictional material, for frictionally engaging said adjacent wall.

13. A sheetrock sanding tool as set forth in claim 11 wherein an edge between said flat face and said edge of relatively wide character is a 90 degree edge.

14. A sheetrock tool as set forth in claim 11 wherein an edge between said flat face and said edge of relatively wide character is a beveled edge.

15. A sheetrock sanding tool as set forth in claim 11 wherein said rotational support means further comprises a shoulder bolt mounted to said mounting plate and having a smooth portion serving as an axle shaft.

16. A method for sanding sheetrock comprising:

providing a mounting plate on one side with a swiveling handle,

on an opposite side of said mounting plate, mounting for rotation at least one sanding disk holder,

removably mounting a flat sanding disk to a face of said sanding disk holder,

in a sheetrock joint, placing said flat sanding disk against one wall surface to be sanded,

moving said sanding disk holder and said sanding disk along said wall surface to be sanded,

concurrently with said moving said sanding disk holder along said wall surface to be sanded, frictionally engaging an edge of said sanding disk holder with an adjacent wall surface, rotating said sanding disk holder and sanding said wall surface to be sanded with a rotary motion of said sanding disk holder.

17. A method as set forth in claim 16 further comprising incorporating a material of frictional character along an edge of said sanding disk holder.

18. A method as set forth in claim 16 further comprising constructing said edge of said sanding disk holder of relatively wide construction.

19. A method as set forth in claim 16 further comprising removably attaching said flat sanding disk to said sanding disk holder by one of:

an adhesive attachment,

a hook-and-loop attachment.

20. A method as set forth in claim 16 further comprising mounting a plurality of sanding disk holders to said mounting plate.